Coiled tubing-based milling assembly
a technology of coiled tubing and milling assembly, which is applied in the direction of borehole/well accessories, sealing/packing, and surveying, etc., can solve the problems of reducing the efficiency of end load transmission from surface to mill, increasing the difficulty of plug removal further away from the entrance of the wellbore, and primarily reducing efficiency. , to achieve the effect of preventing frictional lockup and helical buckling of the coiled tubing, enhancing the mill
Active Publication Date: 2018-10-02
BAKER HUGHES INC
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- Description
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Benefits of technology
The patent text describes a tool used in wellbore construction that improves the effectiveness and speed of drilling. The tool, called a vibratory tool, is powered by a motor and is designed to prevent frictional lockup and helical buckling of the drilling equipment. The tool can be operated for at least 4-5 hours before needing a recharge, and can provide real-time information to operators about the tension, compression, and torque experienced during drilling. This allows operators to adjust weight on the tool and milling speed to control or reduce helical buckling. Overall, the vibratory tool improves the efficiency and speed of drilling wellbores.
Problems solved by technology
Removal of plugs further away from the entrance to the wellbore, either in vertical wells or in long laterals, becomes more challenging as the efficiency of the end loads transmitted from surface to the mill are reduced.
This efficiency reduction is primarily due to helical buckling in the coiled tubing near the mill.
Because of this helical buckling, quite often the deepest plugs cannot be reached with standard coiled tubing arrangements.
Even if the deepest plugs can be reached, helical buckling can render the mill inefficient or unable to mill properly and remove the plug.
A related problem for these types of milling operations is power management.
However, there are operational difficulties.
Large downhole batteries are impractical due to their size.
Supplying operating power from the surface is also problematic.
Additionally, the increase in weight associated with the larger conductive wire is problematic.
Method used
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Embodiment Construction
[0018]FIG. 1 illustrates an exemplary wellbore 10 which has been drilled from the surface 12 through the earth 14. Although the depicted wellbore 10 is shown as being vertically oriented within the earth 14, it should be understood that the wellbore, or portions thereof, may be inclined or horizontal. The probability of helical buckling is greater in highly deviated or horizontal wellbores. A bridge plug 15 is shown set within the wellbore 10. An electrical power source 16, such as a generator, is located at surface 12 as well as a mud pump 18. The power source 16 and mud pump 18 have outputs 20, 22, respectively, that are operably interconnected with components of the coiled tubing-based milling arrangement, as will be described in further detail. A coiled tubing injector 24 is located at surface 12 and is used to inject coiled tubing into the wellbore 10. A controller 26 is also located at surface 12. The controller 26 is preferably a programmable device, such as a computer, which...
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A milling assembly for use in milling away an object in a wellbore. A milling bottom hole assembly is run in on a Telecoil® running string and includes a rechargeable power section which is recharged via tube-wire in the running string. The milling bottom hole assembly also includes a sensor section which measures tension, compression and torque experienced by the running string during milling.
Description
BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The invention relates generally to systems and methods for operation of a milling bottom hole assembly which is incorporated into a coiled tubing running string.[0003]2. Description of the Related Art[0004]A significant number of wells in shale formations require hydraulic fracturing stimulations for economical production. The vast majority of these stimulations are performed by simultaneously fracturing several clusters of perforations followed by a mechanical isolation with composite bridge plugs. The number of plugs is directly dependent on the stimulated well length. Thus, between 20 and 100 plugs are generally used for each well.[0005]After the bridge plugs have been set, they will later need to be removed. Plugs near the entrance to the wellbore can typically be removed with a positive displacement motor and mill run on jointed pipe. Removal of plugs further away from the entrance to the wellbore, either in vertic...
Claims
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IPC IPC(8): E21B47/00E21B28/00E21B29/00E21B33/134E21B17/20
CPCE21B47/0006E21B17/206E21B33/134E21B29/00E21B28/00E21B47/007
Inventor LIVESCU, SILVIUWATKINS, THOMAS J.NAJAFOV, JEYHUN
Owner BAKER HUGHES INC